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Objective: To optimize the formulation of paeonol lipid microspheres (Pae-LM) through central composite design- response surface method and determine its in vitro release characteristics. Methods: Using the mean particle size and centrifugal stability constant (Ke) as evaluation indexes, the oil phase type and the ratio of composite oil, the amount of phospholipid and stearic acid, the type of emulsifier, the type and amount of stabilizer, the quality of PC and CH, the high-speed shear temperature and time, the homogenization pressure and time was screened in prescription process. Effects of dosage of paeonol and high pressure homogenizing pressure on the properties of Pae-LM preparation were investigated by central composite design-response surface method. The binomial model and multivariate linear regression model were used to establish the mathematical relationship between the indexes and the factors. According to the best mathematical model of evaluation index, the response surface was depicted and the best prescription was analyzed by the response surface method. According to the optimized formulation Pae-LM, the in vitro drug release characteristics were investigated. Results: The best prescription of Pae-LM was basically round, with mean particle size of (149.32 ± 0.57) nm, Zeta potential of (-36.01 ± 3.09) mV, encapsulation rate of (98.24 ± 0.32)% and drug-loading rate of (11.94 ± 0.04)%. There was a credible quantitative relationship between Ke and the two factors, and the binomialmodel was more reliable than the multivariate linear model. The cumulative release of paeonol drug substance at 12, 24 and 36 h were 71.84%, 85.21% and 95.07%, while the cumulative release of Pae-LM was only 57.21%, 59.66%, and 63.91% at 12, 24 and 36 h, respectively. The drug release was in accordance with the Ritger-peppas model. Conclusion: Central composite design-response surface method can be applied to optimize prescription of lipid emulsion microspheres. The optimized particle size of Pae-LM was suitable with a higher encapsulation rate, which can provide a reference for the development of paeonol cardiovascular delivery system.
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Objective To optimize prescription and evaluate the quality of imperatorin lipid microspheres (ILM) by central composite design-response surface methodology (CCD-RSM), therefore to use the mean particle size, particle size distribution (polydispersity index, PDI) and Zeta potential as the primary indicator. Methods Mean particle size, particle size distribution and Zeta potential of lipid microspheres were measured to investigate the effect of the concentration of egg yolk lecithin, poloxamer and percentage of soybean oil in oil phase on the properties of ILM preparation. Mathematic relation between indicator and factor was constructed by binominal fitting. Then the response surface method according to the best mathematical model of evaluation indicators was used to make predictive analysis of the best prescription. Optimized prescription was used to prepare ILM and evaluate its quality. Results Optimized prescription was egg yolk lecithin 1.50 g, F68 0.35 g, and MCT 10 g. All items of optimized prescription were similar to target values. According to the optimized prescription, mean particle size of ILM was (165.00 ± 0.22) nm, particle size distribution was 0.046 ± 0.070, Zeta potential was (−30.30 ± 0.13) mV, encapsulation efficiency was about 90.09%, drug-loading rate was 1.0 mg/mL. Conclusion Due to the better predictability of constructed mathematical model, CCD-RSM can be applied to optimize prescription of lipid microspheres and the optimized ILM meet pharmacy requirements.
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Objective:To investigate the stability of flurbiprofen axetil lipid microspheres injection combined with 0. 9% sodium chloride injection or 5% dextrose injection, and provide theoretical basis for the clinical application. Methods:The content changes of flurbiprofen axetil in the mixture of flurbiprofen axetil lipid microspheres injection and 0. 9% sodium chloride injection or 5% dextrose injection were determined in 5 h at 25℃ away from light, and the changes in the appearance and particle size of flurbiprofen axetil lip-id microspheres were investigated. The changes in the appearance and particle size of flurbiprofen axetil lipid microspheres in the mix-ture of flurbiprofen axetil lipid microspheres injection and 0. 9% sodium chloride injection before and after freezing and thawing were also investigated. Results:The appearance, particle size and content had no significant changes in all mixtures in 5 h at 25 ℃ away from light. The appearance and particle size of flurbiprofen axetil lipid microspheres in the mixture before and after freezing and thawing had no significant changes as well. Conclusion:The mixture of flurbiprofen axetil lipid microspheres injection and 0. 9% sodium chlo-ride injection or 5% dextrose injection is stable in 5 h away from light.
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@#To evaluate pharmacokinetic and metabolic characteristics of clevidipine butyrate lipid microspheres(CDB-LM)injection in mice, a novel HPLC-FLD method was developed for simultaneous measurement of clevidipine butyrate(CDB)and its metabolites clevidipine acid(MI)in whole blood samples. The chromatographic column was Waters C18(4. 6 mm×150 mm, 5 μm)and the mobile phase is consisted of acetonitrile-methanol-phosphate(2 ∶1 ∶2). The detection wavelength of FLD included excitation wavelength at 358 nm and emission wavelength at 440 nm. The pharmacokinetic parameters of CDB and MI were calculated by using DAS 2. 0. Then obtained parameters were statisticaly analyzed using PASW Statistics 18. The results showed that the half-life of CDB and MI were about 4 min and 20 min, respectively. Pharmacokinetic parameters of the low- and high-dose groups were as follows: CL of CDB were 4. 21 and 2. 72 L ·min-1 ·kg-1; AUC0-t were 3. 86 and 6. 43 mg/L ·min; MRT0-t were 7. 09 and 6. 17 min. CL of MI were 0. 34 and 0. 22 L ·min-1 ·kg-1; AUC0-t were 52. 23 and 74. 90 mg/L ·min; MRT0-t were 201. 24 and 217. 33 min. A method of protein precipitation was established, and acetonitrile was used to deal with whole blood samples. This method was simple, fast, with no interference with endogenous impurities. The results showed that the established HPLC-FLD method was simple and sensitive. It can be used to determine CDB and MI simultaneously. Comparing the low-dose group with the high-dose group, it was found that the plasma concentration-time curve of the two groups revealed the same tendency, which confirms that CDB has a short half-life and that it metabolizes to MI quickly.
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OBJECTIVE:To observe the clinical outcome of lipid microspheres prostaglandin E 1 (Lipo-PGE 1 )injection in combination with diammonium glycyrrhizinate injection plus combined therapy in the treatment of chronic severe hepati-tis.METHODS:68patents with severe hepatitis B were assigned to receive lipid Lipo-PGE 1 injection in combination with di-ammonium glycyrrhizinate injection(treatment group)besides the necessary combined therapy as in the control group for4weeks,the clinical outcome and biochemical indicators were compared between2groups.RESULTS:As compared with the control group,the treatment group had a significantly alleviated clinical symptoms after treatment for2weeks and4weeks(P